ERV GUIDE

FOR ENHANCED INDOOR AIR QUALITY & ENERGY EFFICIENCY

RenewAire

BENEFITS OF INCREASED VENTILATION

❤️ BETTER HEALTH
? REDUCED VIRAL SPREAD
? IMPROVED COGNITIVE FUNCTION
? INCREASED PRODUCTIVITY

RENEWAIRE EVERYWHERE

EVERY GEOGRAPHY, EVERY CLIMATE, EVERY HOME,
EVERY BUILDING AND EVERY APPLICATION

INDOOR AIR QUALITY MATTERS

DEFICIENT INDOOR AIR QUALITY IS A THREAT

As buildings get tighter to seal weather out, they seal in contaminants, causing deficient indoor air quality (IAQ). Typical contaminants include off-gassing from carpeting, furniture and building materials, excess humidity and mold, odors, cooking and cleaning fumes, CO₂, hair and fibers, to name a few.

Deficient IAQ is a threat since it can harm occupant health and cognitive function, damage structures and hurt the bottom line. It's especially concerning since people spend about 90% of their time indoors, and indoor air can be two to five times—and up to 100 times—more polluted than outdoor air. The EPA ranks indoor air pollution as a top-five health risk.¹

ADVERSE EFFECTS OF DEFICIENT IAQ

HEALTH PROBLEMS: Deficient IAQ can cause allergies, headaches, coughs, asthma, skin irritations and breathing difficulties, as well as cancer, liver disease, kidney damage and nervous-system failure.
DISEASE TRANSMISSION: Ventilation with outdoor air is vital to diluting airborne contaminants and decreasing disease transmission rates.
COGNITIVE IMPAIRMENT: Harvard and Berkeley Lab found that CO₂—a constituent of exhaled breath—negatively impacts thinking and decision-making at levels commonly found indoors.²
REDUCED PRODUCTIVITY: Berkeley Lab found that deficient IAQ can cost $200 billion in debilitated worker performance and $58 billion in lost sick time.³

VENTILATION CAN ENHANCE IAQ AND DECREASE THE TRANSMISSION OF AIRBORNE INFECTIOUS DISEASES, INCLUDING COVID-19: BIT.LY/COVID19WP_22

¹ "Why Indoor Air Quality is Important to Schools," U.S. Environmental Protection Agency (EPA), https://bit.ly/2SoyRJc.

² Romm, "Exclusive: Elevated CO₂ Levels Directly Affect Human Cognition, New Harvard Study Shows," Climate Progress, https://bit.ly/2Vp6AE2.

³ Alevantis, Berman, Mills, Perlman, "The Costs and Financial Benefits of Green Buildings," U.S. Green Building Council (USGBC), https://bit.ly/2KnP50c.

PEOPLE SPEND 90% OF THEIR TIME INDOORS

Everyone is at risk of suffering from deficient IAQ. Due to weaker immune systems, children and seniors are the most vulnerable. Children are especially susceptible because proportionally they inhale more pollutants than adults and have narrower airways (World Health Organization).

REDUCE INDOOR AIR CONTAMINANTS

Diagram Description: An illustration shows a building interior with various air handling units (AHU) and energy recovery ventilators (ERV). Numbered points indicate common sources of indoor air contaminants:

1. Contaminated Airborne Aerosols: Aerosols generated by coughing, sneezing, talking and breathing can act as carriers for viruses and bacteria.
2. Humidity: Exhaled breath, water sources (faucets, showers, leaks, floods).
3. Carbon Dioxide: Constituent of exhaled breath.
4. Formaldehyde: Off-gassed from adhesives, fabric treatments, stains, varnishes.
5. Odors: Bathrooms, kitchens, dry-erase markers, occupant odors (perfume, soap/shampoo residue, clothing detergent, general odors), pets.
6. Tobacco smoke: Smoking areas close to building entrance.
7. Phthalates: Off-gassed from adhesives, vinyl flooring, wood finishes, plastic plumbing pipes, other building materials.
8. VOCs, toxic gases, vapors: Off-gassed from furniture, carpets, paints, cleaners, solvents, glues, building materials.
9. Ozone: Off-gassed from copiers, electrostatic air cleaners, other office equipment.

REDUCE ENERGY COSTS AND IMPROVE IAQ AT HOME

HIGHEST-QUALITY INDOOR AIR VIA VENTILATION

The solution to pollution is dilution achieved via increased and balanced ventilation, which is the most effective way to realize cleaner and healthier indoor air. With enough controlled fresh and filtered outdoor air coming in to replace equal parts of stale indoor air via balanced design, IAQ will be enhanced.

TYPES OF HOME VENTILATION

	FAIR	GOOD	BETTER	BEST
	EXHAUST ONLY (bath fans)	BALANCED VENTILATION	HRV	ERV
EXHAUSTS CONTAMINANTS FROM WHOLE HOUSE	✔️	✔️	✔️	✔️
PROVIDES FILTERED SUPPLY AIR			❓	✔️
PERFORMS WELL IN ALL CLIMATES YEAR-ROUND				✔️
OPTIMIZES ENERGY AND SAVES MONEY				✔️
EASY TO INSTALL				✔️
EASY TO MAINTAIN				✔️

THE BEST SOLUTION

The best solution is RenewAire's energy recovery ventilation technology, which provides enhanced IAQ, greater ventilation efficiency and major energy cost savings.

Diagram Description: An illustration depicts the temperature exchange process. Outdoor air at 95°F enters, is tempered to 81°F supply air. Room air at 75°F exits, preheating and humidifying the incoming air in winter, or being precooled and dehumidified in summer.

BETTER HEALTH + LOWER BILLS = INCREASED VENTILATION VIA ERVs

The American Society of Heating, Refrigeration and Air Conditioning Engineers (ASHRAE) 62.2 committee has established a residential ventilation standard, known as Ventilation and Acceptable Indoor Air Quality in Residential Buildings. The goal of this standard and its continuous revisions are to not only evaluate and recommend every building's minimum ventilation needs, but also emphasize indoor air quality and its relationship with occupant health. ERVs reduce energy costs while meeting the standard.

See the chart below to calculate the minimum ventilation required for your home: .03 x sq. ft. + 7.5(bedroom +1). For example, a 2,200 sq. ft. home with four bedrooms requires a minimum of 104 CFM.

MINIMUM VENTILATION AIRFLOW REQUIRED BY HOME SIZE*

SQUARE FEET	<500'	501'-1000'	1001'-1500'	1501'-2000'	2001'-2500'	2501'-3000'	3001'-3500'	3501'-4000'
1 BEDROOM	30	45	60	75	90	105	120	135
2 BEDROOMS	38	53	68	83	98	113	128	143
3 BEDROOMS	45	60	75	90	105	120	135	150
4 BEDROOMS	53	68	83	98	113	128	143	158
5 BEDROOMS	60	75	90	105	120	135	150	165

* Infiltration credit not considered, please contact RenewAire to assist in selecting a unit that is best suited for your home.

RENEWAIRE SINGLE/MULTI-FAMILY ERV FRESH AIR SYSTEM

SL SERIES

30-130 CFM
Low-profile, commercial-grade appliance, often used for multi-family units
EC motors, variable speed with boost-mode, Dial-A-Flow easy balancing, plug-in and hard wired power available
MERV 13 filter accessory

BR SERIES

50-140 CFM
Two-duct design
Indoor, residential ERV
Duct mounted or thru-the-wall
MERV 13 filter accessory

AWARD WINNING EV PREMIUM SERIES

30-390 CFM
Residential ERV certified for commercial-grade applications
EC motors, variable speed with boost-mode, Dial-A-Flow easy balancing, plug-in and hard wired power available
MERV 13 filter accessory
EV Premium SH, MH, LH awarded TecHome Builder's 2023 Brilliance Award

EV SERIES

40-110 CFM
Four-duct design
Indoor, residential ERV
MERV 13 filter accessory

OPTIMIZE ENERGY EFFICIENCY IN EVERY SPACE

OPTIMIZING ENERGY EFFICIENCY

RenewAire ERVs are a sustainable ventilation solution. Our static-plate, cross-flow core separates the outgoing, polluted indoor airstream from the incoming fresh airstream—while simultaneously transferring total energy (heat and water vapor) between the two. Airstreams do not mix and pollutants are not transferred across partition plates. In the winter, that means that the cold, dry outside air is preheated and humidified by the outgoing warm interior air. And in the summer, the warm, humid outside air is precooled and dehumidified by the outgoing air-conditioned interior air.

Diagram Description: Illustration showing fresh air entering a building and stale room air exiting. The core transfers heat and water vapor between the two airstreams without mixing them.

ASHRAE 90.1 ENERGY STANDARD

"Energy Standard for Buildings Except Low-Rise Residential Buildings" is a benchmark for commercial building energy codes in the U.S. and across the world. ERVs are required in several instances based on climate zone and percent of outdoor air at full design airflow rate.

RENEWAIRE IN ACTION: HVAC LOAD REDUCTION & HEALTHY IAQ AT GCU

HVAC loads reduced by 40%
Annual HVAC costs reduced by 40% every year for the life of the ERVs
Excel in small spaces due to downsized HVAC equipment
Work within limiting parameters of existing HVAC infrastructure

RENEWAIRE ERVs REDUCE UNIVERSITY'S ANNUAL HVAC COST BY 40%: BIT.LY/2JPAFT5

RENEWAIRE CORE TECHNOLOGY

CERTIFICATION

Commercial Units: Certified by the Air Conditioning, Heating and Refrigeration Institute (AHRI) for an industry-leading, low-to-zero Exhaust Air Transfer Ratio (EATR) at typical static pressure differential
Residential Units: Certified by the Home Ventilating Institute (HVI) against standard CAN/CSA-C439-18 for an industry leading CFM/w and energy transfer effectiveness (except BR 70)
Superior core flammability performance; passes UL-723 and UL-1812

RELIABILITY

An industry-leading 10-year structural and performance warranty for the static-plate core, two-year warranty for commercial products and five-year warranty for residential products.

EXCEPTIONAL PERFORMANCE

Moderates heat and humidity via total energy recovery to maintain a comfortable indoor environment
No need for frost protection or condensate pans
Laminar airflow ensures that particulates do not accumulate in the core

REDUCED COSTS

Optimized energy efficiency via core energy transfer decreases ventilation energy requirements, which can result in smaller air conditioning and heating needs.

MAINTENANCE

RenewAire cores are easy to clean without removing them from the unit, and they never require washing.

INNOVATIVE CONSTRUCTION

Core exchanger material is cellulosic-based and doesn't contain or use halogenated flame retardants or PVCs
Manufactured with a galvanized steel frame

COMMERCIAL ERVS

The simplicity, flexibility, reliability and efficiency of the RenewAire HE and LE Series Commercial ERVs excel in every commercial application. The packaged solutions of the HE Series and the large capacity of the LE Series offer a wide airflow range, as well as static capacities. These innovative commercial ERVs can be applied in every type of building in every climate to maximize energy efficiency, downsize HVAC equipment and reduce costs.

HE SERIES

Packaged solutions
Indoor/outdoor
120–8,800 CFM

LE SERIES

Large capacity
Indoor/outdoor
1,500–11,000 CFM

DOAS SYSTEMS

Specific codes within various regions call for DOAS-type products to deliver 100% outside air to each occupied space. Additionally, many codes call for incorporating energy recovery. ASHRAE standard 90.1 and IECC require a minimum of 50% of total effectiveness for the energy recovery component. Even when not mandated, it is one of the best ways to improve a building's energy efficiency.

APPLIED ERVS

The flexibility and efficiency of the RenewAire CA, PA and SA Series Applied ERVs allow for numerous applications, airflows and configurations. The CA Series modular cabinets house up to four energy recovery cores and can be installed individually or be stacked up to five cabinets high. The PA Series modular arrays of 6, 8, 9 or 12 energy recovery cores can be installed side-by-side. The SA Series is designed for air-handling Original Equipment Manufacturers (OEMs) and caters to greater airflow needs.

CA SERIES

Modular cabinets
Indoor/outdoor
500–4,400 CFM
Stackable to 20,000 CFM

PA SERIES

Modular panels
Indoor
1,500–unlimited CFM

SA SERIES

2,250–70,400 CFM
Packaged core with plenum assembly
Flexible and modular
Large airflow capacities

Read our SA Series case study, HVAC Engineers and Contractors Solve Refrigeration Tonnage Constraints in Hospital Lab HVAC Retrofit: http://bit.ly/2JpAft5

RD SERIES

Commercial
Indoor/outdoor
500–4,250 CFM

DN SERIES

Commercial
Indoor/outdoor
375–4,950 CFM
Available with packaged refrigeration

OPTIONS & ACCESSORIES

OPTIONS

Integrated Programmable Controls
ECM motors
Variable frequency drives
Motorized isolation dampers
Bypass economizers

ACCESSORIES

Indirect gas-fired duct furnaces
Electric duct heaters
Combo curbs
Filter alarms

Diagram Description: A row of images shows different RenewAire ERV models: HEO7IN, HE10RT, HE1.5XIN, LE10RT, DN3RT.

RENEWAIRE ERVS TEMPER THE AIR

Our ERVs moderate the extremes of outdoor supply-air temperature and humidity year-round, providing a sustainable ventilation solution for every climate.

Diagram Description: Illustrations show how ERVs temper air in summer and winter.

Summer: Warm, humid outdoor air is precooled and dehumidified by the outgoing cool interior air, becoming fresh air.

Winter: Cold, dry outdoor air is preheated and humidified by the outgoing warm interior air, becoming fresh air.

GREEN BUILDING TRENDS

High-performance, green-building standards seek to reduce energy use and increase ventilation to improve health, wellness, IAQ and indoor environmental quality (IEQ). Sustainable design initiatives like ASHRAE Standard 189.1, LEED, 2030 Challenge, Living Building Challenge and WELL Building Standard have grown in popularity among architects, engineers, contractors and building owners alike. RenewAire ventilation technologies create healthier and more comfortable indoor environments, while optimizing energy efficiency. This is done by reusing otherwise-wasted total energy from the exhaust air to condition incoming outdoor air. The results are exceptional IAQ, IEQ, energy reductions and cost savings.

RENEWAIRE ERVS ARE THE SUSTAINABLE VENTILATION SOLUTION

WHY ENERGY RECOVERY IS CRITICAL

DECARBONIZATION AND ENERGY EFFICIENCY DEMANDS

The main responsibility of a 100% outdoor air unit is to dehumidify the incoming air. In this process, the system inherently handles large heating and cooling loads. Adding energy recovery significantly minimizes these loads and the HVAC equipment required to condition the air.

ASHRAE 90.1-2010 requires the use of energy recovery based upon a unit's supply airflow, outdoor air percentage, geographic location and hours of operation. The standard mandates the total effectiveness (sensible and latent) by a minimum of 50% when required.

The effectiveness of energy recovery devices varies depending on the type, material and airflow balance. This value is determined based on the test procedure outlined in the Air Conditioning, Heating and Refrigeration Institute's (AHRI) Standard 1060.

Diagram Description: A map of the United States displays climate zones (Marine (C), Dry (B), Moist (A)) with numerical zone designations. A legend indicates "Warm-Humid below white line". Notes explain specific zone inclusions for Alaska and Zone 1.

PERCENTAGE OF OUTDOOR AIR AT FULL DESIGN AIRFLOW RATE (CFM)

ZONE	30% ≤ 40%	40% ≤ 50%	50% ≤ 60%	60% ≤ 70%	70% ≤ 80%	80% ≥
3B, 3C, 4B, 4C, 5B	NR	NR	NR	NR	≥ 5,000	≥ 5,000
1B, 2B, 5C	NR	NR	> 26,000	> 12,000	≥ 5,000	≥ 4,000
6B	≥ 11,000	≥ 5,500	≥ 4,500	≥ 3,500	≥ 2,500	≥ 1,500
1A, 2A, 3A, 4A, 5A, 6A	≥ 5,500	≥ 4,500	≥ 3,500	≥ 2,000	≥ 1,000	≥ 0
7, 8	≥ 2,500	≥ 1,000	≥ 0	≥ 0	≥ 0	≥ 0

RENEWAIRE SUPPORTS THE PILLARS OF SUSTAINABILITY

PEOPLE

Reduce acute and chronic health problems
Improve alertness and cognitive function
Boost productivity

PLANET

Committed to green manufacturing since 1982
Protect the environment with less energy use
Achieve a green structure with greater energy efficiency

PROFIT

Can benefit from a short payback period
Realize annual energy savings
Trouble-free operations and maintenance

For unit details and certifications, visit: RenewAire.com/our-ervs

Member of the S&P Group Family of Brands

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